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UID:

Format: 1 Online-Ressource (X, 288 Seiten)

Edition: [1st ed. 2020]

ISBN: 9783030267322

Series Statement: ISSI Scientific Report Series 17

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-3-030-26731-5

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-3-030-26733-9

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-3-030-26734-6

Language: English

Subjects: Physics

Keywords: Weltraum ; Forschung ; Raumfahrt

DOI: 10.1007/978-3-030-26732-2

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)

UID:

Format: 1 online resource (288)

Edition: 1st ed. 2020.

ISBN: 3-030-26732-6

Series Statement: ISSI Scientific Report Series ; 17

Content: This open access book provides a comprehensive toolbox of analysis techniques for ionospheric multi-satellite missions. The immediate need for this volume was motivated by the ongoing ESA Swarm satellite mission, but the tools that are described are general and can be used for any future ionospheric multi-satellite mission with comparable instrumentation. In addition to researching the immediate plasma environment and its coupling to other regions, such a mission aims to study the Earth’s main magnetic field and its anomalies caused by core, mantle, or crustal sources. The parameters for carrying out this kind of work are examined in these chapters. Besides currents, electric fields, and plasma convection, these parameters include ionospheric conductance, Joule heating, neutral gas densities, and neutral winds. .

Note: Dedication -- Preface -- Chapter 1: Introduction -- Chapter 2: Introduction to Spherical Elementary Current Systems -- Chapter 3: Spherical Elementary Current Systems applied to Swarm data -- Chapter 4: Local least squares analysis of auroral current structures in multi-spacecraft data -- Chapter 5: Multi-spacecraft current estimates at Swarm -- Chapter 6: Applying the dual-spacecraft approach to the Swarm constellation for deriving radial current density. Chapter 7: Science data products for AMPERE -- Chapter 8: ESA Field Aligned Currents - Methodology Inter-Comparison Exercise -- Chapter 9: Spherical Cap Harmonic Analysis techniques for mapping high-latitude ionospheric plasma flow - Application to the Swarm satellite mission -- Chapter 10: Recent Progress on Inverse and Data Assimilation Procedure for High-Latitude Ionospheric Electrodynamics -- Chapter 11: Estimating currents and electric fields at low-latitudes from satellite magnetic measurements -- Chapter 12. Models of the main geomagnetic field based on multi-satellite magnetic data and gradients – Techniques and latest results from the Swarm mission -- Index. . , English.

Additional Edition: ISBN 3-030-26731-8

Language: English

DOI: 10.1007/978-3-030-26732-2

URL: kostenfrei

URL: Cover

UID:

Format: 1 Online-Ressource (288 p.)

ISBN: 9783030267322

Series Statement: ISSI Scientific Report Series

Content: This open access book provides a comprehensive toolbox of analysis techniques for ionospheric multi-satellite missions. The immediate need for this volume was motivated by the ongoing ESA Swarm satellite mission, but the tools that are described are general and can be used for any future ionospheric multi-satellite mission with comparable instrumentation. In addition to researching the immediate plasma environment and its coupling to other regions, such a mission aims to study the Earth’s main magnetic field and its anomalies caused by core, mantle, or crustal sources. The parameters for carrying out this kind of work are examined in these chapters. Besides currents, electric fields, and plasma convection, these parameters include ionospheric conductance, Joule heating, neutral gas densities, and neutral winds

Note: English

Language: English

URL: kostenfrei

UID:

Format: 1 Online-Ressource (X, 288 p. 97 illus., 85 illus. in color)

Edition: 1st ed. 2020

ISBN: 9783030267322

Series Statement: ISSI Scientific Report Series 17

Content: Dedication -- Preface -- Chapter 1: Introduction -- Chapter 2: Introduction to Spherical Elementary Current Systems -- Chapter 3: Spherical Elementary Current Systems applied to Swarm data -- Chapter 4: Local least squares analysis of auroral current structures in multi-spacecraft data -- Chapter 5: Multi-spacecraft current estimates at Swarm -- Chapter 6: Applying the dual-spacecraft approach to the Swarm constellation for deriving radial current density. Chapter 7: Science data products for AMPERE -- Chapter 8: ESA Field Aligned Currents - Methodology Inter-Comparison Exercise -- Chapter 9: Spherical Cap Harmonic Analysis techniques for mapping high-latitude ionospheric plasma flow - Application to the Swarm satellite mission -- Chapter 10: Recent Progress on Inverse and Data Assimilation Procedure for High-Latitude Ionospheric Electrodynamics -- Chapter 11: Estimating currents and electric fields at low-latitudes from satellite magnetic measurements -- Chapter 12. Models of the main geomagnetic field based on multi-satellite magnetic data and gradients – Techniques and latest results from the Swarm mission -- Index

Content: This open access book provides a comprehensive toolbox of analysis techniques for ionospheric multi-satellite missions. The immediate need for this volume was motivated by the ongoing ESA Swarm satellite mission, but the tools that are described are general and can be used for any future ionospheric multi-satellite mission with comparable instrumentation. In addition to researching the immediate plasma environment and its coupling to other regions, such a mission aims to study the Earth’s main magnetic field and its anomalies caused by core, mantle, or crustal sources. The parameters for carrying out this kind of work are examined in these chapters. Besides currents, electric fields, and plasma convection, these parameters include ionospheric conductance, Joule heating, neutral gas densities, and neutral winds

Language: English

DOI: 10.1007/978-3-030-26732-2

URL: Open Access

UID:

Format: 1 online resource (288)

ISBN: 3030267326 , 9783030267322

Series Statement: ISSI Scientific Report Ser. ; v. 17

Content: This open access book provides a comprehensive toolbox of analysis techniques for ionospheric multi-satellite missions. The immediate need for this volume was motivated by the ongoing ESA Swarm satellite mission, but the tools that are described are general and can be used for any future ionospheric multi-satellite mission with comparable instrumentation. In addition to researching the immediate plasma environment and its coupling to other regions, such a mission aims to study the Earth's main magnetic field and its anomalies caused by core, mantle, or crustal sources. The parameters for carrying out this kind of work are examined in these chapters. Besides currents, electric fields, and plasma convection, these parameters include ionospheric conductance, Joule heating, neutral gas densities, and neutral winds.

Note: Dedication -- Preface -- Chapter 1: Introduction -- Chapter 2: Introduction to Spherical Elementary Current Systems -- Chapter 3: Spherical Elementary Current Systems applied to Swarm data -- Chapter 4: Local least squares analysis of auroral current structures in multi-spacecraft data -- Chapter 5: Multi-spacecraft current estimates at Swarm -- Chapter 6: Applying the dual-spacecraft approach to the Swarm constellation for deriving radial current density. Chapter 7: Science data products for AMPERE -- Chapter 8: ESA Field Aligned Currents -- Methodology Inter-Comparison Exercise -- Chapter 9: Spherical Cap Harmonic Analysis techniques for mapping high-latitude ionospheric plasma flow -- Application to the Swarm satellite mission -- Chapter 10: Recent Progress on Inverse and Data Assimilation Procedure for High-Latitude Ionospheric Electrodynamics -- Chapter 11: Estimating currents and electric fields at low-latitudes from satellite magnetic measurements -- Chapter 12. Models of the main geomagnetic field based on multi-satellite magnetic data and gradients - Techniques and latest results from the Swarm mission -- Index. . , English.

Additional Edition: ISBN 3030267318

Language: English

DOI: 10.1007/978-3-030-26732-2.

URL: ProQuest Ebook Central

URL: http://eu.alma.exlibrisgroup.com/view/uresolver/44WHELF_SWA/openurl?u.ignore_date_coverage=true&rft.mms_id=998436052902417

URL: DOAB Directory of Open Access Books

URL: https://whel-primo.hosted.exlibrisgroup.com/openurl/44WHELF_BANG/44WHELF_BANG_services_page?u.ignore_date_coverage=true&rft.mms_id=991004886764102422

UID:

Format: 1 online resource (295 pages)

Edition: 1st ed.

ISBN: 9783030267322

Series Statement: ISSI Scientific Report Series v.17

Content: Intro -- Dedication -- Preface -- Contents -- 1 Introduction -- 2 Introduction to Spherical Elementary Current Systems -- 2.1 Introduction -- 2.2 Short Review of Ionospheric Electrodynamics -- 2.3 Elementary Current Systems -- 2.4 Current and Magnetic Field -- 2.5 Coordinate Transformations -- 2.6 Vector Field Analysis with SECS -- 2.7 Analysis of Ground Magnetic Measurements -- 2.7.1 Separation into Internal and External Parts -- 2.8 Analysis of Satellite Magnetic Measurements -- 2.9 1D SECS -- 2.10 Some Practical Considerations -- 2.10.1 Grid and Boundary Effects -- 2.10.2 Singularities -- 2.10.3 Inversion Regularization -- 2.10.4 Tilted Field Lines -- 2.10.5 Equivalent Current as a Proxy for FAC -- 2.11 How SECS Have Been Used -- References -- 3 Spherical Elementary Current Systems Applied to Swarm Data -- 3.1 Introduction -- 3.2 The Swarm/SECS Analysis Method -- 3.2.1 Current from Magnetic Field Analysis -- 3.2.2 Fitting the Electric Field with CF SECS -- 3.2.3 Conductances from Ohm's Law -- 3.3 Tests with Synthetic Data -- 3.4 Examples of Event Studies -- 3.5 Statistical Studies -- 3.5.1 Swarm-MIRACLE Comparisons -- 3.5.2 Global Current Systems with the Swarm/SECS Method -- 3.6 Conclusions, Discussion, and Future -- References -- 4 Local Least Squares Analysis of Auroral Currents -- 4.1 Introduction -- 4.2 Methodology of Multi-spacecraft Array Techniques -- 4.2.1 General Linear Least Squares -- 4.2.2 Local LS Estimators of Spatial Gradients -- 4.2.3 Local LS Estimators of Electric Currents -- 4.2.4 Related Local Estimators of Gradients and Currents -- 4.2.5 Errors and Limitations -- 4.3 Multi-spacecraft Array Techniques in Practice -- 4.3.1 Implementation of Planar Multi-point Array Estimators -- 4.3.2 Application to Swarm Auroral Crossings -- 4.4 Single-Spacecraft Multi-scale Analysis -- 4.4.1 MVA Applied to Auroral Current Sheets.

Note: Description based on publisher supplied metadata and other sources

Additional Edition: ISBN 9783030267315

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 9783030267315

Language: English

URL: lizenzpflichtig

UID:

Format: 1 online resource (295 pages)

Edition: 1st ed.

ISBN: 9783030267322

Series Statement: ISSI Scientific Report Series ; v.17

Note: Intro -- Dedication -- Preface -- Contents -- 1 Introduction -- 2 Introduction to Spherical Elementary Current Systems -- 2.1 Introduction -- 2.2 Short Review of Ionospheric Electrodynamics -- 2.3 Elementary Current Systems -- 2.4 Current and Magnetic Field -- 2.5 Coordinate Transformations -- 2.6 Vector Field Analysis with SECS -- 2.7 Analysis of Ground Magnetic Measurements -- 2.7.1 Separation into Internal and External Parts -- 2.8 Analysis of Satellite Magnetic Measurements -- 2.9 1D SECS -- 2.10 Some Practical Considerations -- 2.10.1 Grid and Boundary Effects -- 2.10.2 Singularities -- 2.10.3 Inversion Regularization -- 2.10.4 Tilted Field Lines -- 2.10.5 Equivalent Current as a Proxy for FAC -- 2.11 How SECS Have Been Used -- References -- 3 Spherical Elementary Current Systems Applied to Swarm Data -- 3.1 Introduction -- 3.2 The Swarm/SECS Analysis Method -- 3.2.1 Current from Magnetic Field Analysis -- 3.2.2 Fitting the Electric Field with CF SECS -- 3.2.3 Conductances from Ohm's Law -- 3.3 Tests with Synthetic Data -- 3.4 Examples of Event Studies -- 3.5 Statistical Studies -- 3.5.1 Swarm-MIRACLE Comparisons -- 3.5.2 Global Current Systems with the Swarm/SECS Method -- 3.6 Conclusions, Discussion, and Future -- References -- 4 Local Least Squares Analysis of Auroral Currents -- 4.1 Introduction -- 4.2 Methodology of Multi-spacecraft Array Techniques -- 4.2.1 General Linear Least Squares -- 4.2.2 Local LS Estimators of Spatial Gradients -- 4.2.3 Local LS Estimators of Electric Currents -- 4.2.4 Related Local Estimators of Gradients and Currents -- 4.2.5 Errors and Limitations -- 4.3 Multi-spacecraft Array Techniques in Practice -- 4.3.1 Implementation of Planar Multi-point Array Estimators -- 4.3.2 Application to Swarm Auroral Crossings -- 4.4 Single-Spacecraft Multi-scale Analysis -- 4.4.1 MVA Applied to Auroral Current Sheets. , 4.4.2 Multi-scale Field-Aligned Current Analyzer -- 4.4.3 Application of MS-MVA to Swarm Auroral Crossings -- 4.5 Summary -- References -- 5 Multi-spacecraft Current Estimates at Swarm -- 5.1 Introduction -- 5.2 Basic Application of the Curlometer -- 5.2.1 Four-Spacecraft Technique: Quality Factor and Limitations -- 5.2.2 Cluster Lessons: Implementation, Scale Size and Stationarity -- 5.2.3 Key Regions Covered by Related Methodology -- 5.3 Use of Cluster and THEMIS for in Situ Ring Current Surveys -- 5.3.1 Application of Cluster Crossings to Survey the Ring Current -- 5.3.2 Use of the Magnetic Rotation Analysis (MRA) Method for Field Curvature Analysis -- 5.3.3 Use of THEMIS Three-Spacecraft Configurations to Sample the Ring Current -- 5.3.4 Future Use of MMS and Swarm: Small Separations -- 5.4 Multi-spacecraft Analysis for Swarm: FACs -- 5.4.1 Method: Application of the Curlometer to Stationary Signals -- 5.4.2 Use of Special Configurations: 2-, 3-, 4-, 5-Point Analysis -- 5.4.3 Use of the Extended 'Curlometer' with Swarm Close Configurations: 3-D Current Density -- 5.4.4 Current Sheet Orientation Implied by 2-Spacecraft Correlations -- 5.5 Swarm-Cluster Coordination: FAC Scaling and Coherence -- 5.5.1 Conjunction Characteristics -- 5.5.2 Analysis of Common FAC Signatures -- 5.5.3 Other Events -- 5.6 Conclusions -- References -- 6 Applying the Dual-Spacecraft Approach to the Swarm Constellation for Deriving Radial Current Density -- 6.1 Introduction -- 6.2 Current Estimates from Satellites -- 6.2.1 Single-Satellite Field-Aligned Current Estimate -- 6.2.2 Multi-satellite Current Estimates -- 6.3 The Swarm Dual-SC Current Estimate Approach -- 6.4 Examples of Swarm FAC Estimates -- 6.5 Assessing the Uncertainties of FAC Estimates -- 6.6 Summary and Conclusions -- References -- 7 Science Data Products for AMPERE -- 7.1 Introduction. , 7.2 Magnetic Fields and Currents on Spherical Surfaces -- 7.3 Spherical Harmonic Basis Functions -- 7.4 Basis Functions and Data Fitting -- 7.5 Practical Considerations -- 7.6 Estimating Uncertainties -- 7.7 Spherical Elementary Currents and Iridium Data -- 7.8 AMPERE and Other Data Sets -- 7.9 Conclusion -- References -- 8 ESA Field-Aligned Currents-Methodology Inter-comparison Exercise -- 8.1 Introduction -- 8.2 The FAC-MICE Test Dataset -- 8.3 The Active Participants to FAC-MICE -- 8.4 FAC-MICE Comparison Results -- 8.4.1 Comparison for the 'High Correlation' Events -- 8.4.2 Comparison for the 'Low Correlation' Events -- 8.5 FAC-MICE Comparison Summary -- 8.6 FAC-MICE Round Table Discussion and Way Forward -- References -- 9 Spherical Cap Harmonic Analysis Techniques for Mapping High-Latitude Ionospheric Plasma Flow-Application to the Swarm Satellite Mission -- 9.1 Introduction -- 9.2 Theory -- 9.2.1 Spherical Cap Geometry -- 9.2.2 Mapping Electrostatic Potential and Ion Flow by Series Expansion -- 9.2.3 Associated Legendre Functions -- 9.2.4 Boundary Conditions and Basis Functions -- 9.2.5 Non-integer Degree -- 9.3 Practical Example of Mapping Ionospheric Plasma Flow Using SHA and SCHA Approaches -- 9.4 Application of SCHA for Mapping Ionospheric Plasma Flow Based on Swarm Satellite Ion Drift Measurements -- 9.5 Summary -- References -- 10 Recent Progress on Inverse and Data Assimilation Procedure for High-Latitude Ionospheric Electrodynamics -- 10.1 Introduction -- 10.2 Method Overview -- 10.2.1 Representation of Electrodynamic State Variables Using Scalar and Vector Polar-Cap Spherical Harmonic Basis Functions -- 10.2.2 Bayesian State Estimation for Gaussian Processes -- 10.2.3 Nonstationary Covariance Modeling -- 10.3 Analysis of Electrostatic Potential and Electric Fields. , 10.4 Analysis of Toroidal Magnetic Potential and Field-Aligned Currents -- 10.5 Dual Optimization Approach -- 10.6 Summary -- References -- 11 Estimating Currents and Electric Fields at Low Latitudes from Satellite Magnetic Measurements -- 11.1 Introduction -- 11.2 Satellite Data Preprocessing -- 11.3 Removing the Sq Field -- 11.4 Estimating EEJ Flow with Line Currents -- 11.5 Estimating Low-Latitude Electric Fields -- 11.5.1 Ionospheric Electrostatic Modeling -- 11.5.2 Estimating the Electric Field -- 11.6 Conclusion -- References -- 12 Models of the Main Geomagnetic Field Based on Multi-satellite Magnetic Data and Gradients-Techniques and Latest Results from the Swarm Mission -- 12.1 Introduction -- 12.2 Fundamentals of Main Field Modelling -- 12.2.1 Calibration of Vector Magnetic Field Measurements -- 12.2.2 Selection of Magnetic Field Data for Main Field Modelling -- 12.2.3 Potential Field Modelling -- 12.2.4 Representation of the Field Due to Internal Sources -- 12.2.5 Representation of the Field Due to External Sources -- 12.2.6 Using Data in the Magnetometer Frame: Co-estimation of Magnetometer Attitude -- 12.2.7 Model Estimation: Solution of the Inverse Problem -- 12.3 Use of Field Gradients and Multi-satellite Data in Main Field Modelling -- 12.3.1 Estimates of Field Gradients: Approximation by Along-Track and Across Track Differences -- 12.3.2 Information Content of Field Gradient Estimates -- 12.3.3 Examples of Field Gradient Data and Their Interpretation -- 12.3.4 Simultaneous Inversion of Data from Multiple Satellites -- 12.4 The Internal Field as Seen by the Swarm Multi-satellite Mission -- 12.4.1 The Core Field -- 12.4.2 The Lithospheric Field -- 12.5 Limitations of Present Main Field Models -- 12.6 Concluding Remarks -- References -- Index.

Additional Edition: Print version: Dunlop, Malcolm Wray Ionospheric Multi-Spacecraft Analysis Tools Cham : Springer International Publishing AG,c2019 ISBN 9783030267315

Language: English

Keywords: Electronic books.

URL: Click to View

UID:

Format: 1 online resource (288)

Edition: 1st ed. 2020.

ISBN: 3-030-26732-6

Series Statement: ISSI Scientific Report Series ; 17

Content: This open access book provides a comprehensive toolbox of analysis techniques for ionospheric multi-satellite missions. The immediate need for this volume was motivated by the ongoing ESA Swarm satellite mission, but the tools that are described are general and can be used for any future ionospheric multi-satellite mission with comparable instrumentation. In addition to researching the immediate plasma environment and its coupling to other regions, such a mission aims to study the Earth’s main magnetic field and its anomalies caused by core, mantle, or crustal sources. The parameters for carrying out this kind of work are examined in these chapters. Besides currents, electric fields, and plasma convection, these parameters include ionospheric conductance, Joule heating, neutral gas densities, and neutral winds. .

Note: Dedication -- Preface -- Chapter 1: Introduction -- Chapter 2: Introduction to Spherical Elementary Current Systems -- Chapter 3: Spherical Elementary Current Systems applied to Swarm data -- Chapter 4: Local least squares analysis of auroral current structures in multi-spacecraft data -- Chapter 5: Multi-spacecraft current estimates at Swarm -- Chapter 6: Applying the dual-spacecraft approach to the Swarm constellation for deriving radial current density. Chapter 7: Science data products for AMPERE -- Chapter 8: ESA Field Aligned Currents - Methodology Inter-Comparison Exercise -- Chapter 9: Spherical Cap Harmonic Analysis techniques for mapping high-latitude ionospheric plasma flow - Application to the Swarm satellite mission -- Chapter 10: Recent Progress on Inverse and Data Assimilation Procedure for High-Latitude Ionospheric Electrodynamics -- Chapter 11: Estimating currents and electric fields at low-latitudes from satellite magnetic measurements -- Chapter 12. Models of the main geomagnetic field based on multi-satellite magnetic data and gradients – Techniques and latest results from the Swarm mission -- Index. . , English.

Additional Edition: ISBN 3-030-26731-8

Language: English

DOI: 10.1007/978-3-030-26732-2

UID:

Format: 1 online resource (288)

Edition: 1st ed. 2020.

ISBN: 3-030-26732-6

Series Statement: ISSI Scientific Report Series ; 17

Content: This open access book provides a comprehensive toolbox of analysis techniques for ionospheric multi-satellite missions. The immediate need for this volume was motivated by the ongoing ESA Swarm satellite mission, but the tools that are described are general and can be used for any future ionospheric multi-satellite mission with comparable instrumentation. In addition to researching the immediate plasma environment and its coupling to other regions, such a mission aims to study the Earth’s main magnetic field and its anomalies caused by core, mantle, or crustal sources. The parameters for carrying out this kind of work are examined in these chapters. Besides currents, electric fields, and plasma convection, these parameters include ionospheric conductance, Joule heating, neutral gas densities, and neutral winds. .

Note: Dedication -- Preface -- Chapter 1: Introduction -- Chapter 2: Introduction to Spherical Elementary Current Systems -- Chapter 3: Spherical Elementary Current Systems applied to Swarm data -- Chapter 4: Local least squares analysis of auroral current structures in multi-spacecraft data -- Chapter 5: Multi-spacecraft current estimates at Swarm -- Chapter 6: Applying the dual-spacecraft approach to the Swarm constellation for deriving radial current density. Chapter 7: Science data products for AMPERE -- Chapter 8: ESA Field Aligned Currents - Methodology Inter-Comparison Exercise -- Chapter 9: Spherical Cap Harmonic Analysis techniques for mapping high-latitude ionospheric plasma flow - Application to the Swarm satellite mission -- Chapter 10: Recent Progress on Inverse and Data Assimilation Procedure for High-Latitude Ionospheric Electrodynamics -- Chapter 11: Estimating currents and electric fields at low-latitudes from satellite magnetic measurements -- Chapter 12. Models of the main geomagnetic field based on multi-satellite magnetic data and gradients – Techniques and latest results from the Swarm mission -- Index. . , English.

Additional Edition: ISBN 3-030-26731-8

Language: English

DOI: 10.1007/978-3-030-26732-2

UID:

Format: 1 online resource (288)

Edition: 1st ed. 2020.

ISBN: 3-030-26732-6

Series Statement: ISSI Scientific Report Series ; 17

Content: This open access book provides a comprehensive toolbox of analysis techniques for ionospheric multi-satellite missions. The immediate need for this volume was motivated by the ongoing ESA Swarm satellite mission, but the tools that are described are general and can be used for any future ionospheric multi-satellite mission with comparable instrumentation. In addition to researching the immediate plasma environment and its coupling to other regions, such a mission aims to study the Earth’s main magnetic field and its anomalies caused by core, mantle, or crustal sources. The parameters for carrying out this kind of work are examined in these chapters. Besides currents, electric fields, and plasma convection, these parameters include ionospheric conductance, Joule heating, neutral gas densities, and neutral winds. .

Note: Dedication -- Preface -- Chapter 1: Introduction -- Chapter 2: Introduction to Spherical Elementary Current Systems -- Chapter 3: Spherical Elementary Current Systems applied to Swarm data -- Chapter 4: Local least squares analysis of auroral current structures in multi-spacecraft data -- Chapter 5: Multi-spacecraft current estimates at Swarm -- Chapter 6: Applying the dual-spacecraft approach to the Swarm constellation for deriving radial current density. Chapter 7: Science data products for AMPERE -- Chapter 8: ESA Field Aligned Currents - Methodology Inter-Comparison Exercise -- Chapter 9: Spherical Cap Harmonic Analysis techniques for mapping high-latitude ionospheric plasma flow - Application to the Swarm satellite mission -- Chapter 10: Recent Progress on Inverse and Data Assimilation Procedure for High-Latitude Ionospheric Electrodynamics -- Chapter 11: Estimating currents and electric fields at low-latitudes from satellite magnetic measurements -- Chapter 12. Models of the main geomagnetic field based on multi-satellite magnetic data and gradients – Techniques and latest results from the Swarm mission -- Index. . , English.

Additional Edition: ISBN 3-030-26731-8

Language: English

DOI: 10.1007/978-3-030-26732-2